Yes, it is true.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere. Evaporation (not vaporization) occur at any temperature; a higher temperature increase the rate of evaporation. The energy of water molecules increase by a temperature increase and some molecules at the surface can escape in the atmosphere.
When water molecules at the liquid surface gain sufficient energy they can escape in the atmosphere. Evaporation (not vaporization) occur at any temperature; a higher temperature increase the rate of evaporation.
The energy of water molecules increase by a temperature increase and some molecules at the surface can escape in the atmosphere. After evaporation water become a gas.
The movement of molecules increase when the temperature increase; some molecules at the water surface can escape as a gas.
Boiling is a greatly expedited form of evaporation. When you heat something to its boiling point, it has enough energy for its molecules to rapidly escape. Evaporation is a much slower action, generally. It is just molecules at the surface gaining enough energy to escape. Both evaporation and boiling are endothermic processes. They will cool what ever the molecules are escaping from.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere. Evaporation (not vaporization) occur at any temperature; a higher temperature increase the rate of evaporation. The energy of water molecules increase by a temperature increase and some molecules at the surface can escape in the atmosphere.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere. Evaporation (not vaporization) occur at any temperature; a higher temperature increase the rate of evaporation. The energy of water molecules increase by a temperature increase and some molecules at the surface can escape in the atmosphere.
evaporation
Evaporation of water occur when the energy of water molecules from the surface is sufficiently high and the molecules can escape in the atmosphere.
Evaporation - the fastest molecules escape 1. When a Liquid is heated, the heat energy goes to the molecules, which makes them move faster. 2. Some molecules move faster than others. 2. Fast-moving molecules at the surface will overcome the forces of attraction from the other molecules and escape. This is Evaporation.
When water molecules at the liquid surface gain sufficient energy they can escape in the atmosphere. Evaporation (not vaporization) occur at any temperature; a higher temperature increase the rate of evaporation.
The energy of water molecules increase by a temperature increase and some molecules at the surface can escape in the atmosphere. After evaporation water become a gas.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere. Evaporation (not vaporization) occur at any temperature; a higher temperature increase the rate of evaporation. The energy of water molecules increase by a temperature increase and some molecules at the surface can escape in the atmosphere.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere. Evaporation (not vaporization) occur at any temperature; a higher temperature increase the rate of evaporation. The energy of water molecules increase by a temperature increase and some molecules at the surface can escape in the atmosphere.
Evaporation explanation is that the kinetic energy of molecules at the surface allows some molecules to escape in the atmosphere.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere forming a gas. Evaporation (not vaporization) occur at any temperature; a higher temperature increase the rate of evaporation. The energy of water molecules increase by a temperature increase and some molecules at the surface can escape in the atmosphere.
Some molecules from the surface of the liquid gain more energy and are able to escape in the atmosphere.